Synthesis of high-strength Ti-10V-2Fe-3Al alloy with powder metallurgy approach

Synthesis of high-strength Ti-10V-2Fe-3Al alloy with powder metallurgy approach

Gespeichert in:

Bibliographische Detailangaben
Datum:	2009
Hauptverfasser:	D. H. Savvakin, M. V. Matviichuk
Format:	Artikel
Sprache:	English
Veröffentlicht:	2009
Schriftenreihe:	Metal Science and Treatment of Metals
Online Zugang:	http://jnas.nbuv.gov.ua/article/UJRN-0000411328
Tags:	Tag hinzufügen Keine Tags, Fügen Sie den ersten Tag hinzu!
Назва журналу:	Library portal of National Academy of Sciences of Ukraine \| LibNAS

Institution

Library portal of National Academy of Sciences of Ukraine | LibNAS

Ähnliche Einträge

Hydrogen interaction with Ti–Al–V–Fe, Al–V–Fe and Ti–Al–Mo–Fe master alloy powders
von: O. M. Ivasyshyn, et al.
Veröffentlicht: (2018)

The features of structure formation at synthesis of high entropy alloys of Al – Cr – Fe – Ni – Cu, Al – Ti – Cr – Fe – Ni – Cu and Ti – Cr – Fe – Ni – Cu systems by means of powder metallurgy
von: H. A. Bahliuk, et al.
Veröffentlicht: (2015)

Corrosion resistance of c.p. titanium and Ti–6Al–4V alloy prepared by powder metallurgy in aqueous solutions of hydrochloric acid
von: I. M. Pohreliuk, et al.
Veröffentlicht: (2020)

Preparation of Fe3Al intermetallide by powder metallurgy methods
von: A. V. Tolochina, et al.
Veröffentlicht: (2016)

Producing of powder of Ni-Cr-Al-Y system alloy, alloyed with silicon, using the method of powder metallurgy
von: E. A. Astakhov, et al.
Veröffentlicht: (2010)

Tensile Deformation and Fracture of α+β-Titanium Alloys Synthesized by Powder Metallurgy
von: A. I. Dekhtjar, et al.
Veröffentlicht: (2013)

Synthesis of Alloys Based on Binary Zr—Ti System Using Zirconium Hydride Powder
von: D. G. Savvakin, et al.
Veröffentlicht: (2013)

Hot Upset Studies on Sintered (Al–TiO₂–Gr) Powder Metallurgy Hybrid Composite
von: Ravichandran, M., et al.
Veröffentlicht: (2016)

Microstructure and properties of multilayer materials on Ti–6Al–4V alloy base, produced by powder technology
von: O. M. Ivasishin, et al.
Veröffentlicht: (2018)

Fabrication of foams by the powder metallurgy methods from Cu–Al–Ni system alloys with shape memory
von: Ye. Monastyrskyi, et al.
Veröffentlicht: (2011)

Structure and properties of high-strength titanium alloy Ti-10-2-3 of electroslag remelting
von: I. V. Protokovilov, et al.
Veröffentlicht: (2017)

Corrosion strength of plasma coatings based on composite powders with FeAl intermetallic
von: N. V. Vihilianska, et al.
Veröffentlicht: (2022)

Producing of high-strength titanium alloy Ti–1.5Al–6.8Mo–4.5Fe by EBM method
von: S. V. Akhonin, et al.
Veröffentlicht: (2018)

Effect of preliminary activation of TiAl powder on the process of mechanochemical synthesis of (Fe, Ti)<sub>3</sub>Al intermetallics
von: Yu. S. Borysov, et al.
Veröffentlicht: (2022)

Strength and endurance of powder BT1-0and Fe-18Cr-14Ni alloys in high-temperature hydrogen
von: A. D. Ivasyshyn, et al.
Veröffentlicht: (2012)

Thermal synthesis powder Fe-Mn-C-Cu master alloy
von: H. A. Bahliuk, et al.
Veröffentlicht: (2009)

Синтез високоміцного сплаву Ti – 10V – 2Fe – 3Al методом порошкової металургії
von: Саввакін, Д.Г., et al.
Veröffentlicht: (2009)

Making of bimetals by the powder metallurgy methods (Review)
von: K. O. Hohaiev, et al.
Veröffentlicht: (2011)

Structure and properties of alloyed powders based on Fe3Al intermetallic for thermal spraying produced using mechanochemical synthesis method
von: Ju. S. Borisov, et al.
Veröffentlicht: (2017)

Detonation coatings produced by spraying of alloyed powders based on Fe–Al intermetallics
von: N. V. Vigilianska, et al.
Veröffentlicht: (2024)

Wear resistance of Fe-Cr–Mn–Ti–Al coatings sprayed by powder wires
von: L. I. Bohun, et al.
Veröffentlicht: (2019)

Mechanical activation of crystallization of amorphous boron and synthesis of Al3Ti under cold isostatic pressing of V–Al–(LaB6–TiB2) powder
von: Ja. Akimov, et al.
Veröffentlicht: (2017)

Tribology of Fe–Cu-Ni-Sn and Fe-Cu–Ni-Sn–VN composites obtained by powder metallurgy methods
von: V. A. Mechnik, et al.
Veröffentlicht: (2019)

Hydrogen Sorption Properties and Thermal Stability of Mechanical Alloy Fabricated by Milling of Mg + 10 wt.% TiH2 + 10 wt.% Fe Powders' Mixture
von: V. D. Dobrovolskyi, et al.
Veröffentlicht: (2013)

Structure and phase composition of high-entropy AlCuNiFeTi alloy resulted from mechanical alloying
von: O. I. Yurkova, et al.
Veröffentlicht: (2014)

The impact of high voltage treatment of Fe—Ti—C and Fe—Ti—B—C powder compositions on the changes of their electrical resistivity
von: O. N. Sizonenko, et al.
Veröffentlicht: (2014)

Argon-arc welding of high-strength sparsely-doped pseudo-β-Titanium Alloy Ti–2. 8Al–5. 1Mo–4. 9Fe
von: S. V. Akhonin, et al.
Veröffentlicht: (2021)

Corrosion properties of titanium obtained by powder metallurgy method
von: I. M. Pohreliuk, et al.
Veröffentlicht: (2016)

Effect of microstructure, deformation mode and rate on mechanical behaviour of electron-beam melted Ti-6Al-4V and Ti-1.5Al-6.8Mo-4.5Fe alloys
von: O. M. Ivasishin, et al.
Veröffentlicht: (2018)

Detonation coatings of intermetallic powders of Fe–Al system produced using mechanical alloying
von: Ju. S. Borisov, et al.
Veröffentlicht: (2017)

Effect of microstructure, deformation mode and rate on mechanical behaviour of electron-beam melted Ti-6Al-4V and Ti-1.5Al-6.8Mo-4.5Fe alloys
von: Ivasishin, O.M., et al.
Veröffentlicht: (2018)

Evolution of Phase Composition and Microstructure upon Synthesis of Zr—Sn Alloy from Zirconium Hydride and Tin Powders
von: D. G. Savvakin, et al.
Veröffentlicht: (2015)

Evolution of Phase Composition and Microstructure upon Synthesis of Zr—Sn Alloy from Zirconium Hydride and Tin Powders
von: Savvakin, D.G., et al.
Veröffentlicht: (2015)

High-strength eutectic alloys of the ternary Al – Si – Mg system, alloyed by zinc and copper
von: N. P. Korzhova, et al.
Veröffentlicht: (2015)

Features of thyxoforming of high-strength aluminum alloy VAL10 in conditions of pulse pressing
von: V. P. Holovachenko, et al.
Veröffentlicht: (2022)

The Ti–Al–Zr–Si alloys for the exploitation at high temperatures
von: S. O. Firstov, et al.
Veröffentlicht: (2018)

The choice of the multi-component composition of Nb–Ti–Al niobium alloy with increased specific high temperature strength, heat resistance, and manufactorability
von: M. P. Brodnikovskyi, et al.
Veröffentlicht: (2020)

The influence of Temperature and rotary Treatment on hot-shortness of the high-strength aluminium alloy Val 10
von: V. P. Golovachenko, et al.
Veröffentlicht: (2014)

Corrosion resistance of the welded joints of titanium synthesized by the method of powder metallurgy
von: Ye. Kapustian, et al.
Veröffentlicht: (2018)

Electrochemical behavior of titanium, synthesized by powder metallurgy method in hydrochloric acid.
von: I. M. Pohreliuk, et al.
Veröffentlicht: (2016)